https://www.sciencephoto.com/media/941627/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7251 Mission Control, Apollo 11K005/7251 Mission controllers in conversation after the landing of Apollo 11.https://www.sciencephoto.com/image/941627/350wm/K0057251-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941627/preview/K0057251-Mission_Control,_Apollo_11-SPL.mp420.182018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941628/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7280 Mission Control, Apollo 11K005/7280 NASA director of flight crew operations Deke Slayton rubs his eye after the Apollo 11 landing.https://www.sciencephoto.com/image/941628/350wm/K0057280-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941628/preview/K0057280-Mission_Control,_Apollo_11-SPL.mp419.12018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941629/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7293 Mission Control, Apollo 11K005/7293 Mission Operations Control Room (MOCR) after the Apollo 11 moonwalk.https://www.sciencephoto.com/image/941629/350wm/K0057293-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941629/preview/K0057293-Mission_Control,_Apollo_11-SPL.mp438.242018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941630/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7294 Mission Control, Apollo 11K005/7294 Mission Operations Control Room (MOCR) after the Apollo 11 landing.https://www.sciencephoto.com/image/941630/350wm/K0057294-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941630/preview/K0057294-Mission_Control,_Apollo_11-SPL.mp426.182018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941631/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7296 Mission Control, Apollo 11K005/7296 Apollo 11 CAPCOM Charlie Duke talks to the crew during powered descent.https://www.sciencephoto.com/image/941631/350wm/K0057296-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941631/preview/K0057296-Mission_Control,_Apollo_11-SPL.mp410.092018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941632/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7315 Mission Control, Apollo 11K005/7315 Mission Operations Control Room (MOCR) after the Apollo 11 landing.https://www.sciencephoto.com/image/941632/350wm/K0057315-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941632/preview/K0057315-Mission_Control,_Apollo_11-SPL.mp443.092018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941633/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7341 Mission Control, Apollo 11K005/7341 Mission Operations Control Room During The Landing of Apollo 11.https://www.sciencephoto.com/image/941633/350wm/K0057341-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941633/preview/K0057341-Mission_Control,_Apollo_11-SPL.mp49.042018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941634/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/7343 Mission Control, Apollo 11K005/7343 Vehicle systems engineers in mission control seconds after the landing of Apollo 11.https://www.sciencephoto.com/image/941634/350wm/K0057343-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941634/preview/K0057343-Mission_Control,_Apollo_11-SPL.mp46.052018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941635/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/9290 Mission Control, Apollo 11K005/9290 Staff at Mission Control watching the first Moonwalk during Apollo 11.https://www.sciencephoto.com/image/941635/350wm/K0059290-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941635/preview/K0059290-Mission_Control,_Apollo_11-SPL.mp429.132018-08-11Yes196920th centuryamericanapollo 11archivalarchiveastronautbusydisplayfeedfirstfootagehistorichistoricalhistoryhumanladderlandedlivelunarmannedmenmission controlmocrmodulemonitormoonmoonwalknewsoperationspeopleprogramhttps://www.sciencephoto.com/media/941636/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/9396 Mission Control, Apollo 11K005/9396 Scenes at Mission Control following the landing of Apollo 11.https://www.sciencephoto.com/image/941636/350wm/K0059396-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941636/preview/K0059396-Mission_Control,_Apollo_11-SPL.mp432.22018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941637/view/mission-control-apollo-112018-08-11T00:13:44Z0.9K005/9486 Mission Control, Apollo 11K005/9486 Staff at Mission Control watching the first Moonwalk during Apollo 11.https://www.sciencephoto.com/image/941637/350wm/K0059486-Mission_Control,_Apollo_11-SPL.jpghttps://www.sciencephoto.com/image/941637/preview/K0059486-Mission_Control,_Apollo_11-SPL.mp442.132018-08-11Yes196920th centuryamericanapollo 11archivalarchivebusyfirstfootagehistorichistoricalhistoryhumanlunarmannedmenmission controlmocrmoonnewsoperationspeopleprogramprogrammereelroomspace racespaceflightusahttps://www.sciencephoto.com/media/941638/view/mission-control-scenes-apollo-82018-08-14T00:08:19Z0.9K005/7692 Mission Control scenes, Apollo 8K005/7692 Scenes from the Mission Operation Control Room during the Apollo 8 mission. Ground control staff are seen studying monitors showing the astronauts in their spacecraft. Apollo 8 launched on 21st December 1968, and was the first manned spaceflight to leave Earth orbit, and the crew of Frank F Borman II, James A Lovell Jr and William A Anders became the first humans to orbit the Moon. The success of the mission paved the way for the first Moon landing by Apollo 11 some seven months later.https://www.sciencephoto.com/image/941638/350wm/K0057692-Mission_Control_scenes,_Apollo_8-SPL.jpghttps://www.sciencephoto.com/image/941638/preview/K0057692-Mission_Control_scenes,_Apollo_8-SPL.mp451.142018-08-13Yes1900s1960s19681st20th centuryamericanapollo 8archiveclipcommunicationcommunicationscomputersdisplaydisplayseightfilmfirstfootageground controlhistorichistoricalhistoryhumanlunarmenmissionmission controlmocrmonitormoonmotionnasahttps://www.sciencephoto.com/media/941639/view/mission-control-scenes-apollo-82018-08-14T00:08:19Z0.9K005/7744 Mission Control scenes, Apollo 8K005/7744 Scenes from the Mission Operation Control Room during the Apollo 8 mission. Ground control staff are seen studying monitors showing the astronauts in their spacecraft. Apollo 8 launched on 21st December 1968, and was the first manned spaceflight to leave Earth orbit, and the crew of Frank F Borman II, James A Lovell Jr and William A Anders became the first humans to orbit the Moon. The success of the mission paved the way for the first Moon landing by Apollo 11 some seven months later.https://www.sciencephoto.com/image/941639/350wm/K0057744-Mission_Control_scenes,_Apollo_8-SPL.jpghttps://www.sciencephoto.com/image/941639/preview/K0057744-Mission_Control_scenes,_Apollo_8-SPL.mp456.092018-08-13Yes1900s1960s19681st20th centuryamericanapollo 8archiveclipcommunicationcommunicationscomputersdisplaydisplayseightfilmfirstfootageground controlhistorichistoricalhistoryhumanlunarmenmissionmission controlmocrmonitormoonmotionnasahttps://www.sciencephoto.com/media/941640/view/mission-control-scenes-apollo-82018-08-14T00:08:19Z0.9K005/7766 Mission Control scenes, Apollo 8K005/7766 Scenes from the Mission Operation Control Room during the Apollo 8 mission. Ground control staff are working at computers. Apollo 8 launched on 21st December 1968, and was the first manned spaceflight to leave Earth orbit, and the crew of Frank F Borman II, James A Lovell Jr and William A Anders became the first humans to orbit the Moon. The success of the mission paved the way for the first Moon landing by Apollo 11 some seven months later.https://www.sciencephoto.com/image/941640/350wm/K0057766-Mission_Control_scenes,_Apollo_8-SPL.jpghttps://www.sciencephoto.com/image/941640/preview/K0057766-Mission_Control_scenes,_Apollo_8-SPL.mp416.162018-08-13Yes1900s1960s19681st20th centuryamericanapollo 8archiveclipcommunicationcommunicationscomputerseightfilmfirstfootageground controlhistorichistoricalhistoryhumanlunarmenmissionmission controlmocrmoonmotionnasaorbitpeoplepersonhttps://www.sciencephoto.com/media/942909/view/launch-of-parker-solar-probe-august-20182018-08-15T00:06:19Z0.9K007/9201 Launch of Parker Solar Probe, August 2018K007/9201 Clips from the launch of NASA's Parker Solar Probe. This spacecraft lifted off at 3:31 am EDT (7:31 am GMT) on 12th August 2018. It was launched on board a United Launch Alliance Delta IV Heavy rocket, from Space Launch Complex-37 at Cape Canaveral Air Force Station, Florida, USA. The launch proceeded successfully, beginning the probe's seven-year mission to the Sun. It will fly closer to the Sun than any other probe, coming within six million kilometres, or about 8.5 solar diameters. During its mission it will study the solar corona, solar wind and the Sun's magnetic field.https://www.sciencephoto.com/image/942909/350wm/K0079201-Launch_of_Parker_Solar_Probe,_August_2018-SPL.jpghttps://www.sciencephoto.com/image/942909/preview/K0079201-Launch_of_Parker_Solar_Probe,_August_2018-SPL.mp444.222018-08-15Yes2018americanblast offcape canaveralcoronadarkdelta ivgantryheavylaunchmissionnasanightnight-timeparker solar probeprobeprobesresearchrocketsciencescientificsolarspacespacecraftstudysuntake offunited statesusahttps://www.sciencephoto.com/media/943069/view/clouds-in-sky2018-10-03T00:06:14Z0.9K007/7971 Clouds in skyK007/7971 Timelapse footage of clouds moving in the sky.https://www.sciencephoto.com/image/943069/350wm/K0077971-Clouds_in_sky-SPL.jpghttps://www.sciencephoto.com/image/943069/preview/K0077971-Clouds_in_sky-SPL.mp419.12018-08-16Yes10 seconds or greaterblue skycloudsdayhorizontallockdownlocked offmovementmovingnaturenobodyoutdoorsskysped upspeeded upstatictimelapsetravelwide shothttps://www.sciencephoto.com/media/943090/view/vitamin-c-crystals-light-microscopy-footage2018-08-17T00:05:48Z0.9K007/7093 Vitamin C crystals, light microscopy footageK007/7093 Vitamin C crystals. Polarised light microscopy footage of crystals of ascorbic acid (vitamin C). Vitamin C is an essential nutrient for humans, its main function being in the synthesis of the structural protein collagen. Lack of vitamin C causes the disease scurvy.https://www.sciencephoto.com/image/943090/350wm/K0077093-Vitamin_C_crystals,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943090/preview/K0077093-Vitamin_C_crystals,_light_microscopy_footage-SPL.mp437.082018-08-17Yesascorbic acidbeautifulbiologicalbiologychemicalchemistryclipcolourscrystalcrystalsdietessentialfilmfoodfootagelightmicroscopemotionno-onenobodynutrientnutritionplmpolarised light microscopyvideovitamin chttps://www.sciencephoto.com/media/943091/view/vitamin-c-crystals-light-microscopy-footage2018-08-17T00:05:48Z0.9K007/7094 Vitamin C crystals, light microscopy footageK007/7094 Vitamin C crystals. Polarised light microscopy footage of crystals of ascorbic acid (vitamin C). Vitamin C is an essential nutrient for humans, its main function being in the synthesis of the structural protein collagen. Lack of vitamin C causes the disease scurvy.https://www.sciencephoto.com/image/943091/350wm/K0077094-Vitamin_C_crystals,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943091/preview/K0077094-Vitamin_C_crystals,_light_microscopy_footage-SPL.mp49.082018-08-17Yesascorbic acidbeautifulbiologicalbiologychemicalchemistryclipcolourscrystalcrystalsdietessentialfilmfoodfootagelightmicroscopemotionno-onenobodynutrientnutritionplmpolarised light microscopyvideovitamin chttps://www.sciencephoto.com/media/943092/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7191 Canadian pondweed, light microscopy footageK007/7191 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943092/350wm/K0077191-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943092/preview/K0077191-Canadian_pondweed,_light_microscopy_footage-SPL.mp430.162018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943093/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7195 Canadian pondweed, light microscopy footageK007/7195 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943093/350wm/K0077195-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943093/preview/K0077195-Canadian_pondweed,_light_microscopy_footage-SPL.mp418.162018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943094/view/niacinamide-crystallization-time-lapse-footage2018-08-18T00:07:34Z0.9K007/7198 Niacinamide crystallization, time-lapse footageK007/7198 Niacinamide crystallization. Time-lapse light microscopy footage of the formation of crystals of niacinamide. This is the amide of nicotinic acid. The acid and amide are both B vitamins. Nicotinamide is a component of two vital coenzymes, NAD (nicotinamide adenine dinucleotide) and its phosphate NADP, which are responsible for electron transport in cellular respiration. A deficiency of these and other B vitamins may lead to pellagra, shown by severe dermatitis, diarrhoea and depression. Sources of niacinamide include vegetables, lean meat, milk and some cereals.https://www.sciencephoto.com/image/943094/350wm/K0077198-Niacinamide_crystallization,_time-lapse_footage-SPL.jpghttps://www.sciencephoto.com/image/943094/preview/K0077198-Niacinamide_crystallization,_time-lapse_footage-SPL.mp411.122018-08-17Yesb vitaminb vitaminschemicalchemistryclipcrystalcrystallinecrystallisingcrystallizingcrystalsfilmfootageformationforminglight micrographlight microscopelmmicroscopicmotionniacinamideno-onenobodyspeeded uptime-lapsetimelapsevideovitamin b3https://www.sciencephoto.com/media/943095/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7210 Canadian pondweed, light microscopy footageK007/7210 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943095/350wm/K0077210-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943095/preview/K0077210-Canadian_pondweed,_light_microscopy_footage-SPL.mp49.182018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943096/view/botryococcus-braunii-green-algae-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7225 Botryococcus braunii green algae, light microscopy footageK007/7225 Botryococcus braunii green algae, light microscopy footage. These freshwater green algae produce oil. They are known to be one of the sources of oil in prehistoric sediments. This species can be used to produce biofuel.https://www.sciencephoto.com/image/943096/350wm/K0077225-Botryococcus_braunii_green_algae,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943096/preview/K0077225-Botryococcus_braunii_green_algae,_light_microscopy_footage-SPL.mp415.22018-08-17Yesalgaalgalbiofuelbiologicalbiologybotanicalbotanybotryococcus brauniiclipfilmflorafootagefossil fuelsfreshwatergreen algaelight micrographlight microscopelight microscopymicrobiologicalmicrobiologymotionnatureno-onenobodyoiloil formationoil producingphytoplanktonplanktonplanktonicplantprehistoric sedimentshttps://www.sciencephoto.com/media/943097/view/paramecium-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7226 Paramecium protozoa, light microscopy footageK007/7226 Paramecium protozoa, light microscopy footage. Paramecium is a common ciliate protozoan found in aquatic habitats worldwide. They move by the rhythmic beating of many hair-like cilia, and feed mainly on bacteria.https://www.sciencephoto.com/image/943097/350wm/K0077226-Paramecium_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943097/preview/K0077226-Paramecium_protozoa,_light_microscopy_footage-SPL.mp433.052018-08-17Yesaquaticciliateciliatedclipfilmfootagelight micrographlight microscopelight microscopymicrobiologicalmicrobiologymotionno-onenobodyparameciumplanktonplanktonicpond lifeprotozoaprotozoanunder waterunderwatervideohttps://www.sciencephoto.com/media/943098/view/vorticella-protozoa-on-a-rootlet-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7227 Vorticella protozoa on a rootlet, light microscopy footageK007/7227 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943098/350wm/K0077227-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943098/preview/K0077227-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.mp414.22018-08-17Yesaquaticbiologicalbiologyblack backgroundciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwaterhttps://www.sciencephoto.com/media/943099/view/vorticella-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7228 Vorticella protozoa, light microscopy footageK007/7228 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943099/350wm/K0077228-Vorticella_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943099/preview/K0077228-Vorticella_protozoa,_light_microscopy_footage-SPL.mp4402018-08-17Yesaquaticbiologicalbiologyciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwatervideohttps://www.sciencephoto.com/media/943100/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7229 Canadian pondweed, light microscopy footageK007/7229 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943100/350wm/K0077229-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943100/preview/K0077229-Canadian_pondweed,_light_microscopy_footage-SPL.mp4452018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943101/view/vorticella-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7230 Vorticella protozoa, light microscopy footageK007/7230 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943101/350wm/K0077230-Vorticella_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943101/preview/K0077230-Vorticella_protozoa,_light_microscopy_footage-SPL.mp466.042018-08-17Yesaquaticbiologicalbiologyblack backgroundciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwaterhttps://www.sciencephoto.com/media/943102/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7231 Canadian pondweed, light microscopy footageK007/7231 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943102/350wm/K0077231-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943102/preview/K0077231-Canadian_pondweed,_light_microscopy_footage-SPL.mp445.022018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943103/view/paramecium-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7232 Paramecium protozoa, light microscopy footageK007/7232 Paramecium protozoa, light microscopy footage. Paramecium is a common ciliate protozoan found in aquatic habitats worldwide. They move by the rhythmic beating of many hair-like cilia, and feed mainly on bacteriahttps://www.sciencephoto.com/image/943103/350wm/K0077232-Paramecium_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943103/preview/K0077232-Paramecium_protozoa,_light_microscopy_footage-SPL.mp442.042018-08-17Yesaquaticciliateciliatedclipfilmfootagelight micrographlight microscopelight microscopymicrobiologicalmicrobiologymotionno-onenobodyparameciumplanktonplanktonicpond lifeprotozoaprotozoanunder waterunderwatervideohttps://www.sciencephoto.com/media/943104/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7233 Canadian pondweed, light microscopy footageK007/7233 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943104/350wm/K0077233-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943104/preview/K0077233-Canadian_pondweed,_light_microscopy_footage-SPL.mp458.12018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943105/view/vorticella-protozoa-on-a-rootlet-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7234 Vorticella protozoa on a rootlet, light microscopy footageK007/7234 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943105/350wm/K0077234-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943105/preview/K0077234-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.mp424.082018-08-17Yesaquaticbiologicalbiologyblack backgroundciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwaterhttps://www.sciencephoto.com/media/943106/view/paramecium-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7235 Paramecium protozoa, light microscopy footageK007/7235 Paramecium protozoa, light microscopy footage. Paramecium is a common ciliate protozoan found in aquatic habitats worldwide. They move by the rhythmic beating of many hair-like cilia, and feed mainly on bacteria.https://www.sciencephoto.com/image/943106/350wm/K0077235-Paramecium_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943106/preview/K0077235-Paramecium_protozoa,_light_microscopy_footage-SPL.mp452.212018-08-17Yesaquaticciliateciliatedclipfilmfootagelight micrographlight microscopelight microscopymicrobiologicalmicrobiologymotionno-onenobodyparameciumplanktonplanktonicpond lifeprotozoaprotozoanunder waterunderwatervideohttps://www.sciencephoto.com/media/943107/view/vorticella-protozoa-on-a-rootlet-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7236 Vorticella protozoa on a rootlet, light microscopy footageK007/7236 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943107/350wm/K0077236-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943107/preview/K0077236-Vorticella_protozoa_on_a_rootlet,_light_microscopy_footage-SPL.mp432.052018-08-17Yesaquaticbiologicalbiologyblack backgroundciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwaterhttps://www.sciencephoto.com/media/943108/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7237 Canadian pondweed, light microscopy footageK007/7237 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943108/350wm/K0077237-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943108/preview/K0077237-Canadian_pondweed,_light_microscopy_footage-SPL.mp4402018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943109/view/rootlet-ecosystem-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7238 Rootlet ecosystem, light microscopy footageK007/7238 Rootlet ecosystem. Light microscopy footage of algae, protozoa and other microscopic aquatic animals and plants forming an ecosystem based around the rootlet of a larger plant. Filmed in a freshwater environment.https://www.sciencephoto.com/image/943109/350wm/K0077238-Rootlet_ecosystem,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943109/preview/K0077238-Rootlet_ecosystem,_light_microscopy_footage-SPL.mp448.242018-08-17Yesalgaalgaealgalanimalaquaticbiologicalbiologybotanicalbotanyclipecologicalecologyecosystemfaunafilmflorafootagefreshwaterlight micrographlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyphytoplanktonplanktonplanktonicplanthttps://www.sciencephoto.com/media/943110/view/daphnia-eggs-and-heart-beat-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7240 Daphnia eggs and heart beat, light microscopy footageK007/7240 Water flea eggs and heart. Light microscopy footage of the rapidly beating heart of a Daphnia water flea. Also visible are several eggs (round). Daphnia are small freshwater planktonic crustaceans. They feed on algae, bacteria and other organic detritus. Daphnia are around one millimetre in length and their transparent bodies have made them a popular subject for microscopy and physiological studies.https://www.sciencephoto.com/image/943110/350wm/K0077240-Daphnia_eggs_and_heart_beat,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943110/preview/K0077240-Daphnia_eggs_and_heart_beat,_light_microscopy_footage-SPL.mp430.132018-08-17Yesanatomicalanatomyanimalaquaticarthropodbeatingbiologicalbiologybodycarapacecellcellsclipclose-upcrustaceandaphniadetaileggeggsfaunafilmfleasfreshfreshwaterheartheartbeatlight micrographlight microscopelmmagnifiedmicroscopymodel organismhttps://www.sciencephoto.com/media/943111/view/vorticella-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7241 Vorticella protozoa, light microscopy footageK007/7241 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943111/350wm/K0077241-Vorticella_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943111/preview/K0077241-Vorticella_protozoa,_light_microscopy_footage-SPL.mp436.042018-08-17Yesaquaticbiologicalbiologyciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwatervideohttps://www.sciencephoto.com/media/943112/view/rootlet-ecosystem-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7243 Rootlet ecosystem, light microscopy footageK007/7243 Rootlet ecosystem. Light microscopy footage of algae, protozoa and other microscopic aquatic animals and plants forming an ecosystem based around the rootlet of a larger plant. Filmed in a freshwater environment.https://www.sciencephoto.com/image/943112/350wm/K0077243-Rootlet_ecosystem,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943112/preview/K0077243-Rootlet_ecosystem,_light_microscopy_footage-SPL.mp451.022018-08-17Yesalgaalgaealgalanimalaquaticbiologicalbiologybotanicalbotanyclipecologicalecologyecosystemfaunafilmflorafootagefreshwaterlight micrographlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyphytoplanktonplanktonplanktonicplanthttps://www.sciencephoto.com/media/943113/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7244 Canadian pondweed, light microscopy footageK007/7244 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943113/350wm/K0077244-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943113/preview/K0077244-Canadian_pondweed,_light_microscopy_footage-SPL.mp416.052018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943114/view/vorticella-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7245 Vorticella protozoa, light microscopy footageK007/7245 Vorticella protozoa on a rootlet, light microscopy footage. These ciliate protozoa have bell-shaped heads with tiny, hair-like structures (cilia) which are moved in a waving motion to waft food towards them from the surrounding fluid. The cilia can also be used for movement. Each head is attached to a stalk which the vorticella uses to secure itself to an anchor-point. The vorticellae feed in an extended position, and when disturbed they contract their stalk for protection.https://www.sciencephoto.com/image/943114/350wm/K0077245-Vorticella_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943114/preview/K0077245-Vorticella_protozoa,_light_microscopy_footage-SPL.mp428.082018-08-17Yesaquaticbiologicalbiologyblue backgroundciliaciliatedclipcolonialcolonyfaunafilmfootagefreshwaterlight microscopelight microscopymicrobiologicalmicrobiologymicroscopicmotionnatureno-onenobodyplanktonplanktonicplantprotozoaprotozoanrootrootletstalkstalkedunderwaterhttps://www.sciencephoto.com/media/943115/view/canadian-pondweed-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7246 Canadian pondweed, light microscopy footageK007/7246 Canadian pondweed (Elodea canadensis), light microscopy footage. This view of the plant's tissue shows the individual cells with photosynthetic chloroplasts (green nodules) inside.https://www.sciencephoto.com/image/943115/350wm/K0077246-Canadian_pondweed,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943115/preview/K0077246-Canadian_pondweed,_light_microscopy_footage-SPL.mp4452018-08-17Yesbiologicalbiologybotanicalbotanycanadian pondweedcellcell wallcellscellularchlorophyllchloroplastchloroplastsclipelodea canadensisfilmflorafootagelight microscopelight microscopymicroscopicmotionnatureno-onenobodyphotosynthesisphotosyntheticplantpondweedvideohttps://www.sciencephoto.com/media/943116/view/paramecium-protozoa-light-microscopy-footage2018-08-18T00:07:34Z0.9K007/7247 Paramecium protozoa, light microscopy footageK007/7247 Paramecium protozoa, light microscopy footage. Paramecium is a common ciliate protozoan found in aquatic habitats worldwide. They move by the rhythmic beating of many hair-like cilia, and feed mainly on bacteria.https://www.sciencephoto.com/image/943116/350wm/K0077247-Paramecium_protozoa,_light_microscopy_footage-SPL.jpghttps://www.sciencephoto.com/image/943116/preview/K0077247-Paramecium_protozoa,_light_microscopy_footage-SPL.mp466.162018-08-17Yesaquaticciliateciliatedclipfilmfootagelight micrographlight microscopelight microscopymicrobiologicalmicrobiologymotionno-onenobodyparameciumplanktonplanktonicpond lifeprotozoaprotozoanunder waterunderwatervideohttps://www.sciencephoto.com/media/943118/view/wally-schirra-spacesuit-test-fitting2018-08-18T00:07:34Z0.9K005/9385 Wally Schirra spacesuit test fittingK005/9385 Astronaut Walter M Schirra being fitted for his spacesuit for the Mercury-Atlas 8 mission. On 3rd October 1962 Schirra piloted the Sigma 7 spacecraft on this mission, becoming the fifth American and ninth person overall to travel to space.https://www.sciencephoto.com/image/943118/350wm/K0059385-Wally_Schirra_spacesuit_test_fitting-SPL.jpghttps://www.sciencephoto.com/image/943118/preview/K0059385-Wally_Schirra_spacesuit_test_fitting-SPL.mp4137.12018-08-17Yes1900s196220th centuryamericanarchiveastronautclipclothesclothingfilmfitfittingfootagehelmethistoricalhistoryhumanmanmannedmeasuringmenmercury-atlas 8motionpersonpreparationpreparingproject mercuryprotectivesigma 7sigma sevensilverspace racehttps://www.sciencephoto.com/media/943119/view/alan-shepard-on-board-freedom-72018-08-18T00:07:34Z0.9K005/9429 Alan Shepard on board Freedom 7K005/9429 Alan Shepard on board Freedom 7, the mission on which he became the first American in space, on 5th May 1961. Freedom 7 was part of Project Mercury, and launched on a Mercury-Redstone 3 rocket. The 15-minute mission took Shepard to an altitude of 187 kilometres, although he did not complete an orbit of the Earth.https://www.sciencephoto.com/image/943119/350wm/K0059429-Alan_Shepard_on_board_Freedom_7-SPL.jpghttps://www.sciencephoto.com/image/943119/preview/K0059429-Alan_Shepard_on_board_Freedom_7-SPL.mp4316.122018-08-17Yes1900s19611st20th centuryalan shepardamericanarchivecapsuleclipfilmfirstfootagehelmethistoricalhistoryhumanlandmarklightsmanmannedmercurymercury-redstone 3missionmotionnewsrocketspacespace flightspace racespace suitspaceflightsuborbitalhttps://www.sciencephoto.com/media/943120/view/wally-schirra-spacesuit-test-fitting2018-08-18T00:07:34Z0.9K005/9496 Wally Schirra spacesuit test fittingK005/9496 Astronaut Walter M Schirra being fitted for his spacesuit for the Mercury-Atlas 8 mission. On 3rd October 1962 Schirra piloted the Sigma 7 spacecraft on this mission, becoming the fifth American and ninth person overall to travel to space.https://www.sciencephoto.com/image/943120/350wm/K0059496-Wally_Schirra_spacesuit_test_fitting-SPL.jpghttps://www.sciencephoto.com/image/943120/preview/K0059496-Wally_Schirra_spacesuit_test_fitting-SPL.mp470.022018-08-17Yes1900s196220th centuryamericanarchiveastronautclipclothesclothingfilmfitfittingfootagehelmethistoricalhistoryhumanmanmannedmeasuringmenmercury-atlas 8motionpersonpreparationpreparingproject mercuryprotectivesigma 7sigma sevensilverspace racehttps://www.sciencephoto.com/media/943121/view/wally-schirra-on-board-his-mercury-flight-sigma-72018-08-18T00:07:34Z0.9K005/9527 Wally Schirra on board his Mercury flight Sigma 7K005/9527 Astronaut Wally Schirra on board Sigma 7, the spacecraft used in the Mercury-Atlas 8 mission, on 3rd October 1962. This mission saw Walter M Schirra become the fifth American and ninth person overall to travel to space. Sigma 7 orbited the Earth six times, evaluating the technical performance of the spacecraft, which performed perfectly.https://www.sciencephoto.com/image/943121/350wm/K0059527-Wally_Schirra_on_board_his_Mercury_flight_Sigma_7-SPL.jpghttps://www.sciencephoto.com/image/943121/preview/K0059527-Wally_Schirra_on_board_his_Mercury_flight_Sigma_7-SPL.mp4391.092018-08-17Yes1900s196220th centuryamericanarchiveastronautclipearthfilmfootagehistoricalhistoryhumanmanmannedmercury-atlas 8motionorbitalorbitingpersonproject mercurysigma 7sigma sevenspace flightspace racespaceflightspacemunited statesusavideowally schirrawalter m schirrahttps://www.sciencephoto.com/media/943186/view/water-condensation-forming-timelapse2018-08-21T00:06:00Z0.9K007/9240 Water condensation forming, timelapseK007/9240 Timelapse footage of droplets of water condensing on a cold surface. Condensation is a transition from vapour to liquid, most frequently seen with water. It occurs when warm air containing substantial amounts of water vapour makes contact with a cold surface. Cooler air cannot carry as much water vapour, and when the temperature passes the dew point, water condenses out onto the surface, forming the droplets seen here.https://www.sciencephoto.com/image/943186/350wm/K0079240-Water_condensation_forming,_timelapse-SPL.jpghttps://www.sciencephoto.com/image/943186/preview/K0079240-Water_condensation_forming,_timelapse-SPL.mp4302018-08-20Yeschangecondensationcondensingcoolcoolingdemonstrationdew pointdropdropletdropletsdropseffectformingphasephysicalphysicssaturatedsaturationsciencesped upspeeded upsurfacetemperaturetime-lapsetransitionvaporvapourwaterwindowhttps://www.sciencephoto.com/media/943187/view/water-condensation-forming-timelapse2018-08-21T00:06:00Z0.9K007/9241 Water condensation forming, timelapseK007/9241 Timelapse footage of droplets of water condensing on a cold surface. Condensation is a transition from vapour to liquid, most frequently seen with water. It occurs when warm air containing substantial amounts of water vapour makes contact with a cold surface. Cooler air cannot carry as much water vapour, and when the temperature passes the dew point, water condenses out onto the surface, forming the droplets seen here.https://www.sciencephoto.com/image/943187/350wm/K0079241-Water_condensation_forming,_timelapse-SPL.jpghttps://www.sciencephoto.com/image/943187/preview/K0079241-Water_condensation_forming,_timelapse-SPL.mp428.072018-08-20Yeschangecondensationcondensingcoolcoolingdemonstrationdew pointdropdropletdropletsdropseffectformingphasephysicalphysicssaturatedsaturationsciencesped upspeeded upsurfacetemperaturetime-lapsetransitionvaporvapourwaterwindowhttps://www.sciencephoto.com/media/943188/view/water-condensation-forming-timelapse2018-08-21T00:06:00Z0.9K007/9242 Water condensation forming, timelapseK007/9242 Timelapse footage of droplets of water condensing on a cold surface. Condensation is a transition from vapour to liquid, most frequently seen with water. It occurs when warm air containing substantial amounts of water vapour makes contact with a cold surface. Cooler air cannot carry as much water vapour, and when the temperature passes the dew point, water condenses out onto the surface, forming the droplets seen here.https://www.sciencephoto.com/image/943188/350wm/K0079242-Water_condensation_forming,_timelapse-SPL.jpghttps://www.sciencephoto.com/image/943188/preview/K0079242-Water_condensation_forming,_timelapse-SPL.mp421.082018-08-20Yeschangecondensationcondensingcoolcoolingdemonstrationdew pointdropdropletdropletsdropseffectformingphasephysicalphysicssaturatedsaturationsciencesped upspeeded upsurfacetemperaturetime-lapsetransitionvaporvapourwaterwindowhttps://www.sciencephoto.com/media/943448/view/beta-alanine-crystals-light-microscopy2018-08-22T00:05:32Z0.9K007/7190 Beta-alanine crystals, light microscopyK007/7190 Polarised light microscopy of growing crystals of the amino acid beta-alanine. This is a non-essential amino acid, meaning that humans do not need to obtain it from their diet as they are able to synthesis it within the body. However, beta-alanine is often used as a supplement by athletes as there is evidence it can increase muscle performance during short high-intensity exercise.https://www.sciencephoto.com/image/943448/350wm/K0077190-Beta-alanine_crystals,_light_microscopy-SPL.jpghttps://www.sciencephoto.com/image/943448/preview/K0077190-Beta-alanine_crystals,_light_microscopy-SPL.mp492018-08-22Yesamino acidbeta alaninebeta amino acidbeta-alaninebodybuilding supplementchemicalchemistrycrystalcrystalsfood supplementforminggrowinglight micrographlmno-onenobodynon essentialnon-essentialnutritionplmpolarised light microscopepolarised light microscopypolarizedsport sciencesport supplementhttps://www.sciencephoto.com/media/943449/view/water-condensation-forming-timelapse2018-08-23T00:06:42Z0.9K007/9301 Water condensation forming, timelapseK007/9301 Timelapse footage of droplets of water condensing on a cold surface. Condensation is a transition from vapour to liquid, most frequently seen with water. It occurs when warm air containing substantial amounts of water vapour makes contact with a cold surface. Cooler air cannot carry as much water vapour, and when the temperature passes the dew point, water condenses out onto the surface, forming the droplets seen here.https://www.sciencephoto.com/image/943449/350wm/K0079301-Water_condensation_forming,_timelapse-SPL.jpghttps://www.sciencephoto.com/image/943449/preview/K0079301-Water_condensation_forming,_timelapse-SPL.mp422.122018-08-22Yeschangecondensationcondensingcoolcoolingdemonstrationdew pointdropdropletdropletsdropseffectformingphasephysicalphysicssaturatedsaturationsciencesped upspeeded upsurfacetemperaturetime-lapsetransitionvaporvapourwaterwindowhttps://www.sciencephoto.com/media/943450/view/water-condensation-forming-timelapse2018-08-23T00:06:42Z0.9K007/9302 Water condensation forming, timelapseK007/9302 Timelapse footage of droplets of water condensing on a cold surface. Condensation is a transition from vapour to liquid, most frequently seen with water. It occurs when warm air containing substantial amounts of water vapour makes contact with a cold surface. Cooler air cannot carry as much water vapour, and when the temperature passes the dew point, water condenses out onto the surface, forming the droplets seen here.https://www.sciencephoto.com/image/943450/350wm/K0079302-Water_condensation_forming,_timelapse-SPL.jpghttps://www.sciencephoto.com/image/943450/preview/K0079302-Water_condensation_forming,_timelapse-SPL.mp435.212018-08-22Yeschangecondensationcondensingcoolcoolingdemonstrationdew pointdropdropletdropletsdropseffectformingphasephysicalphysicssaturatedsaturationsciencesped upspeeded upsurfacetemperaturetime-lapsetransitionvaporvapourwaterwindow